KR19990070333A - Optical axis adjusting device - Google Patents

Abstract

The present invention relates to an optical axis adjusting device for adjusting an inclination angle of a reflecting mirror that reflects a light beam from a light source toward a recording medium.

The optical axis adjusting device of the present invention includes a reflecting mirror for reflecting an incident light beam toward the objective lens, and an optical axis adjusting member for simultaneously correcting the optical axis in at least two directions by guiding the reflecting mirror in a spherical coordinate system.

With this configuration, the optical axis adjusting device of the present invention adjusts the optical axis simultaneously in at least two directions along the spherical guide surface, thereby improving the accuracy of the optical axis adjusting.

Description

Apparatus For Adjusting Optical Axis

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical pickup apparatus using an optical system, and more particularly, to an optical axis adjusting apparatus for adjusting an inclination angle of a reflecting mirror that reflects a light beam from a light source toward a recording medium.

Recording media for recording or reproducing information using an optical system. Compact recording media (CD) and digital versatile disk (DVD) recording media with superior recording densities are already available. It is becoming common. In addition, the development of the recording medium has led to a magneto-optical disc (MOD) for recording in a magnetic field modulation scheme and reproducing a change in polarization angle according to optical-magnetic field conversion characteristics using an optical system. An optical pickup apparatus for recording / reproducing information on a recording medium by using an optical system must satisfy high-precision characteristics in order to secure product reliability as well as accuracy of information recording or reproducing in accordance with the high density trend of the recording medium. However, the mechanical errors of the components constituting the optical system and the assembly tolerances of these components or the mechanical errors of the mechanisms supporting the recording medium inevitably prevent the light beam emitted from the optical system to be accurately incident on the characteristic position of the recording medium. To this end, methods for correcting the inclination angle of the light beam emitted from the optical system have been proposed so that the light beam emitted from the optical system forms a light spot at a desired position of the recording medium.

Among these, the conventional optical axis adjusting device which corrects the inclination angle of the optical axis by adjusting the inclination of the reflecting mirror constituting the optical system is referred to as a laser diode (LD) hereinafter fixed to the pickup base 1 as shown in FIG. 2, an objective lens 5 provided to face the information recording surface of the disk 6, and a reflecting mirror 3 provided between the LD 2 and the objective lens 5.

The LD 2 is used as a light source, and the objective lens 5 serves to focus the light beam emitted from the optical system on the surface of the disk 6. This objective lens 5 is fastened to the actuator bobbin 4. The reflection mirror 3 serves to reflect the light beam from the LD 2 toward the objective lens 5. The reflecting mirror 3 is in contact with the mirror holder 7 shown in FIG. 2 so as to fit in the pickup base 1 in which cylindrical holder fastening holes 18 having different diameters are formed to have the stepped portions 18a. do. The reflection mirror 3 is fixed to the pickup base 1 when the optical axis adjustment process described later is completed. When the light beam reflected by the reflecting mirror 3 is focused by the objective lens 5 and is incident perpendicularly to the surface of the disk 6, it becomes an ideal condition when it forms a light spot at point O on the surface of the disk 6. . At this time, the inclination angle formed in the R direction and the T direction is θ _R = θ _T = 0. In general, the range of the optical axis inclination angles allowed for recording or reproducing information is 0.1 ° to 0.15 ° or less with respect to the optical axis O _ax perpendicular to the surface of the disc 6. In the assembling step, the light beam reflected from the reflecting mirror 3 due to mechanical error or the like is focused on the objective lens 5 and is incident on the disk 6 with an optical axis path having an arbitrary inclination angle. For this reason, the process of adjusting the inclination-angle of an optical axis within an allowable range is needed by adjusting the inclination of the reflection mirror 3. If the reflecting surface of the reflecting mirror 3 lies at the inclination of P and the light spot formed on the surface of the disk 6 is at P ', the inclination angles of the optical axes in the R and T directions at this time are θ _R = θ _1, respectively. , θ _T = θ ₂ . The step of adjusting the inclination angle of the optical axis will be described step by step, by rotating the mirror holder 7 in the holder fastening hole 18 as shown by the arrow in Fig. 3 so as to draw the adjustment trajectory Lt, the optical axis in the T direction. The tilt angle error is corrected. Then, the light spot formed on the surface of the disk 6 is placed at the K point. At this time, the mirror holder 7 is fixed to the holder fastening hole 18 with an adhesive 16. As can be seen above, correction of the inclination angle θ ₂ in the T direction is possible, but correction of the inclination angle θ _{1 in the} R direction is impossible due to the structure of the optical axis adjusting device. Another type of optical axis adjusting device can also be corrected in only one of the R and T directions, and corrects the inclination angle by adjusting the position of the objective lens 5 or the LD 2 with respect to the other direction which is not corrected. On the other hand, a method of correcting the optical axis by correcting the inclination angle of the spindle motor on which the disk 6 is mounted and correcting the in-plane tilt of the disk 6 is proposed, but the R direction and the T direction until the optical axis correction is finally completed. By repeating the calibration in the direction, it becomes a very inefficient operation and requires a lot of auxiliary members, which causes another problem.

Accordingly, it is an object of the present invention to provide an optical axis adjusting device which enables accurate optical axis correction in at least two directions.

It is another object of the present invention to provide an optical axis adjusting device for correcting an optical axis simultaneously in at least two directions in one operation.

1 is a view schematically showing a conventional optical axis adjusting device.

Figure 2 is a perspective view that clearly shows a conventional reflecting mirror and a mirror holder.

3 is a view schematically showing a conventional optical axis adjusting method.

4 is a view showing an optical axis adjusting device according to an embodiment of the present invention.

5 is a perspective view showing in detail the reflecting mirror, the mirror holder and the pickup base of the present invention.

FIG. 6 shows the mirror holder shown in FIG. 5 from a different angle; FIG.

Explanation of symbols for main parts of the drawings

1,21: pickup base 2,24: laser diode

3,23: reflection mirror 4,27: actuator bobbin

5,25 objective lens 6,26 disc

7,22: mirror holder 16: adhesive

18a: stepped portion 21a: opening

21b: hemisphere guide surface 22a: mirror adhesive surface

22b: Base side adhesive surface

In order to achieve the above object, the optical axis adjustment device of the present invention includes a reflection mirror for reflecting the incident light beam toward the objective lens, and an optical axis adjustment member for simultaneously correcting the optical axis in at least two directions by guiding the reflection mirror in a spherical coordinate system. do.

Other objects and advantages of the present invention in addition to the above objects will become apparent from the description of the embodiments with reference to the accompanying drawings.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 4 to 6.

4 shows an optical axis adjusting device according to an embodiment of the present invention.

In the configuration of Fig. 4A, the optical axis adjusting device of the present invention includes an LD 22 for generating a light beam, an objective lens 25 provided to face the surface of the disk 26, an LD 24, and an objective lens 25. It is provided with a reflecting mirror 23 disposed between the at least two directions to adjust the inclination angle.

LD 24 is used as a light source for generating a light beam having an arbitrary wavelength. The objective lens 25 focuses the light beam emitted from the optical system on the surface of the disk 26. This objective lens 25 is fastened to the actuator bobbin 27. The reflection mirror 23 serves to reflect the light beam from the LD 2 toward the objective lens 25. 4B shows the reflecting mirror 23 seen from the LD 24 side. The reflecting mirror 23 is positioned so that the light beam emitted from the LD 24 can be reflected and refracted toward the objective lens 25.

To this end, the optical axis adjusting device of the present invention, as shown in Figure 5, the mirror holder 22 to which the reflection mirror 23 is bonded, and the spherical guide surface so that the mirror holder 22 is adjustable to be mounted in at least two directions. It has a pickup base 21 which has. As can be seen from the perspective view of Fig. 4, the mirror holder 22 is a base-side adhesive surface 22b formed by inclining the upper outer periphery in a cylindrical shape in which a predetermined portion is cut out at the outer periphery of the LD 24 side, A mirror side adhesive surface 22b is formed by cutting at an angle of 45 degrees toward the LD 24 from the upper surface. The reflection mirror 3 is adhered to the mirror bonding surface 22a. The base side adhesive surface 22b is rounded to an arbitrary curvature and forms a spherical surface. 6A and 6B show, respectively, a plan view and a side view of the mirror holder 22 viewed from above. The mirror holder 22 is attached to the pickup base 21 when the optical axis of the light beam reflected from the reflecting mirror 23 in FIG. 1 is focused vertically with respect to the disk 26 to form a light spot at the condensing reference point O. It is fixed. The pickup base 21 has an opening 21a which is concave in a cylindrical shape opposite to the objective lens 25 so that the light beam can be reflected toward the objective lens 25 on the inner wall of the LD side, and the hemisphere in the opening 21a. It is provided with the hemispherical guide surface 21b extended and formed in concave shape. The opening 21a secures a path of the light beam reflected from the reflective mirror 23 toward the objective lens 25 and the light beam incident from the objective lens 25 toward the reflective mirror 23. The hemisphere guide surface 21b guides the base side adhesive surface 22b of the mirror holder 22 at the same time in at least two directions during optical axis adjustment, and the base side adhesive surface 22b is adhered to the mirror holder 22 when optical axis adjustment is completed. To support the above.

An optical axis adjusting method will be described step by step with reference to FIG. 4. In the initial state, when the reflecting surface of the reflecting mirror 3 lies at the inclination of Q, the light beam emitted from the LD 24 is reflected by the reflecting mirror 23 inclined at the inclination of Q. This light beam is condensed by the objective lens 25 and condensed at Q 'on the surface of the disk 26. At this time, the light spot after passing through the objective lens 25 is θ _R = θ ₁ and θ _T = θ ₂ in the R and T directions, respectively, in the ideal optical axis O _ax perpendicular to the disk 26 surface. Will be inclined. This inclination angle adjustment of the optical axis allows the base side adhesive surface 22b of the mirror holder 22 to be adjusted so that a light spot is formed at the O point on the surface of the disk 26 along the hemispherical guide surface 21b of the pickup base 21. do. At this time, the inclination angles in the R direction and the T direction formed on the surface of the disk 26 are respectively θ _R = θ _T = 0. Finally, the adjustment is completed by adhering the base side adhesive surface 22b of the mirror holder 22 to the hemisphere guide surface 21b. As described above, the optical axis adjusting device of the present invention guides the mirror holder 22 having the reflecting mirror 23 in a spherical coordinate manner to move the optical spot formed on the surface of the disk 26 to an ideal point by one adjustment to adjust the optical axis. Will be corrected.

As described above, the optical axis adjusting device of the present invention improves the accuracy of the optical axis adjustment by adjusting the optical axis simultaneously in at least two directions along the spherical guide surface. Furthermore, the optical axis adjusting device of the present invention is greatly adjusted by adjusting the optical axis only by one optical axis adjustment along the spherical guide surface.

Those skilled in the art will appreciate that various changes and modifications can be made without departing from the technical spirit of the present invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (3)

A reflection mirror reflecting the incident light beam toward the objective lens, And an optical axis adjusting member for correcting the optical axis simultaneously in at least two directions by guiding the reflecting mirror in a spherical coordinate system. The method of claim 1, And an outer circumferential surface formed in a spherical shape so as to face the optical axis adjusting member, and further comprising a mirror holder on which the reflecting mirror is mounted. The method according to claim 1 or 2, The optical axis adjusting member includes an opening formed toward the objective lens, And a guide surface extending in the spherical shape from the opening to guide the mirror holder.